A comparative study on contour-based corner detectors
- Authors: Awrangjeb, Mohammad , Lu, Guojun , Fraser, Clive
- Date: 2010
- Type: Text , Conference paper
- Relation: Digital Image Computing: Techniques and Applications (DICTA), 2010 International Conference
- Full Text: false
- Reviewed:
- Description: Contour-based corner detectors directly or indirectly estimate a significance measure (e.g. curvature) on the points of a planar curve and select the curvature extrema points as corners. While an extensive number of contour-based corner detectors have been proposed over the last four decades, there is no comparative study of recently proposed promising detectors. This paper is an attempt to fill this gap. We present the general frame-work of the contour-based corner detection technique and discuss two major issues - curve smoothing and curvature estimation, which have major impacts on the corner detection performance. A number of promising detectors are compared using an automatic evaluation system on a common large dataset. It is observed that while the detectors using indirect curvature estimation techniques are more robust, the detectors using direct curvature estimation techniques are faster.
A fast corner detector based on the chord-to-point distance accumulation technique
- Authors: Awrangjeb, Mohammad , Lu, Guojun , Fraser, Clive , Ravanbakhsh, Mehdi
- Date: 2009
- Type: Text , Conference paper
- Relation: Digital Image Computing: Techniques and Applications, 2009. DICTA '09.
- Full Text: false
- Reviewed:
- Description: Abstract—The previously proposed contour-based multi-scale corner detector based on the chord-to-point distance accumulation (CPDA) technique has proved its superior robustness over many other single- and multi-scale detectors. However, the original CPDA detector is computationally expensive since it calculates the CPDA discrete curvature on each point of the curve. The proposed improvement obtains a set of probable candidate points before the CPDA curvature estimation. The CPDA curvature is estimated on these chosen candidate points only. Consequently, the improved CPDA detector becomes faster, while retaining a similar robustness to the original CPDA detector.